BS EN ISO/IEC 9314/3 : 1996
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
INFORMATION PROCESSING SYSTEMS - FIBRE DISTRIBUTED DATA INTERFACE (FDDI) - PHYSICAL LAYER MEDIUM DEPENDENT (PMD)
Hardcopy , PDF
15-09-1999
English
01-01-1996
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Foreword
Introduction
1 Scope
2 Normative references
3 Definitions
4 Conventions and abbreviations
4.1 Conventions
4.2 Abbreviations
5 General description
5.1 Ring Overview
5.2 Environment
6 Services
6.1 PMD-to-PHY services
6.2 PMD-to-SMT services
7 Media attachment
7.1 Media Interface Connector (MIC)
7.2 MIC Intermateability detail
8 Media signal interface
8.1 Active output interface
8.2 Active input interface
8.3 Station bypass interface
8.4 Station bypass timing definitions
9 Interface signals
9.1 Optical Receiver
9.2 Optical Transmitter
10 Cable Plant Interface Specification
10.1 Cable plant specification
10.2 Bypassing
10.3 Connectors and splices
Tables
Table 1 Characteristics of active output interface
Table 2 Characteristics of active input interface
Table 3 Characteristics of station bypass interface
Table 4 Summary of assertion and deassertion
requirements
Table 5 Suggested fibre for a cable plant
Table 6 Bandwidth and attenuation values
Figures
Figure 1 FDDI links and connections
Figure 2 FDDI topology example
Figure 3 Dual attachment PMD services
Figure 4 Example of Media Interface Connector
(MIC) plug
Figure 5 MIC receptacle - fibre/device
Figure 6 MIC receptacle - fibre/fibre
Figure 7 MIC ferrule geometry
Figure 8 Receptacle keying detail
Figure 9 Source spectral width and centre
wavelength requirements
Figure 10 Pulse envelope
Figure 11 Expanded pulse envelope
Figure 12 Station bypass timing characteristics
Figure 13 Signal detect thresholds and timing
Figure 14 Minimum dispersion wavelength and slope
limits
Figure 15 Cable plant example
Annexes
Annex A Test methods
A.1 Active output interface
A.2 Active input interface
A.3 Distortion and jitter contributions
A.4 Distortion and jitter measurements
A.5 DDJ test pattern for jitter measurements
Annex B Optical test procedures
Annex C Alternative cable plant usage
C.1 Alternative fibre sizes
C.2 Theoretical connection losses
C.3 Optical bypass switches
Table C.1 Alternative fibre types
Table C.2 Theoretical connection losses for mixed
fibre types
Table C.3 Summary of loss budget remaining
Annex D Electrical interface consideration
FigureD.1 Test configuration for dc-coupled
components
Figure D.2Test configuration for dc-coupled
components
Annex E Example of system jitter allocation
E.1 Jitter sources
E.2 Jitter calculation example
Table E.1 System jitter budget example
Annex F Keying considerations
F.1 Receptacle keying
F.2 Plug keying
F.3 Cabling systems
Annex G Reference non-precision MIC test plug
Figure G.1Reference non-precision MIC plug
Defines Physical Layer, Medium Dependent (PMD) requirements for the Fibre Distributed Data Interface (FDDI)
| DevelopmentNote |
Supersedes and renumbers BS ISO/IEC 9314-3 (07/2004)
|
| DocumentType |
Standard
|
| Pages |
52
|
| PublisherName |
British Standards Institution
|
| Status |
Withdrawn
|
| Supersedes |
| Standards | Relationship |
| ISO/IEC 9314-3:1990 | Identical |
| SNV BS EN ISO/IEC 9314-3 : 1996 | Identical |
| EN ISO/IEC 9314-3 : 1995 | Identical |
| ISO 9314-2:1989 | Information processing systems — Fibre Distributed Data Interface (FDDI) — Part 2: Token Ring Media Access Control (MAC) |
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